Hi David,
I understand that you are trying to solve an ordinary differential equation (ODE) using symbolic mathematics in MATLAB, and you encounter an issue when attempting to evaluate a symbolic expression at specific numerical values for t and y(t). You want to keep y as a function of t for differentiation purposes but also need to substitute specific values for t and y(t).
To achieve this, you can use subs to substitute specific values into your symbolic expression before converting it to a numerical value. Here's how you can adjust your code to avoid the error:
To substitute a specific value for t and y(t), use the subs function. Let us say you want to evaluate f at t = ti and y(t) = wi. You can do this as follows:
ti = 1; % Example value for t
wi = 0.5; % Example value for y(t)
% Substitute the specific values into f
f_sub = subs(f, [t, y(t)], [ti, wi]);
After substituting the specific values, you can convert the result to a numerical value using double:
out(1) = double(f_sub);
This approach allows you to keep y as a function of t for differentiation and other symbolic operations, while also being able to evaluate f at specific numerical values for t and y(t).
Here is the combined snippet:
syms t y(t)
f = t^(-2) * (sin(2*t) - 2*t*y);
ti = 1; % Specific value for t
wi = 0.5; % Specific value for y(t)
% Substitute specific values into f and convert to numerical value
f_sub = subs(f, [t, y(t)], [ti, wi]);
out(1) = double(f_sub);
This should resolve the error and allow you to evaluate your symbolic expression at specific numerical values.
Hope this helps.
Regards,
Nipun
